Disordered Structure and Reversible Phase Transformation from K-Birnessite to Zn-Buserite Enable High-Performance Aqueous Zinc-Ion Batteries-Energy & Environmental Materials2024年03期-手机知网

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Disordered Structure and Reversible Phase Transformation from K-Birnessite to Zn-Buserite Enable High-Performance Aqueous Zinc-Ion Batteries

Department of Materials Engineering and Convergence Technology,Gyeongsang National University(GNU);School of Material Science and Engineering (Ceramic Engineering),Gyeongsang National University (GNU),Jinju 52828,South Korea;School of Materials Science and Engineering,University of Ulsan (UOU);PLS-Ⅱ Beamline Division,Pohang Accelerator Laboratory(PAL) | Nibagani Naresh Suyoon Eom Sang Jun Lee Su Hwan Jeong Ji-Won Jung Young Hwa Jung Joo-Hyung Kim

开通知网号

The layered δ-MnO_2 (dMO) is an excellent cathode material for rechargeable aqueous zinc-ion batteries owing to its large int...

机　构:

Department of Materials Engineering and Convergence Technology,Gyeongsang National University(GNU)；School of Material Science and Engineering (Ceramic Engineering),Gyeongsang National University (GNU),Jinju 52828,South Korea；School of Materials Science and Engineering,University of Ulsan (UOU)；PLS-Ⅱ Beamline Division,Pohang Accelerator Laboratory(PAL)；

领　域:

材料科学；电力工业；

关键词:

aqueous zinc-ion batteries；birnessite；buserite；disordered structure；phase transformation；

格　式:

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Energy & Environmental Materials

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